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AP Physics 1 : Newtonian Mechanics

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Example Questions

Example Question #11 : Conservation Of Energy

A 20 kg block is released from rest on a frictionless ramp inclined at an angle of $40^{\circ}$ with respect to the horizontal. Using conservation of energy methods, calculate the final velocity of the block if it slides a distance of 15 m down the incline.

Possible Answers:

$9.73 \frac{m}{s}$

$13.75 \frac{m}{s}$

$17.16 \frac{m}{s}$

$6.88 \frac{m}{s}$

$15.0 \frac{m}{s}$

Correct answer:

$13.75 \frac{m}{s}$

Explanation:

To solve this problem, we must look at the total energy of the system at two different times: at the beginning before the motion starts, and at the end of the incline. From there, we can use the conservation of energy to solve for the speed of the object at the bottom of the incline.

$E_{initial}=E_{final}\Rightarrow mgh = \frac{1}{2}mv^2\Rightarrow v=\sqrt{2g\Delta x \sin \theta}$

$v=\sqrt{2(9.81\frac{m}{s^2})15m\sin(40^{\circ})}=13.75 \frac{m}{s}$

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Example Question #14 : Conservation Of Energy

2 objects(named object A and object B) of equal masses and initial kinetic energy collide onto one another. During the collision, object A loses $\frac{1}{2}$ of its kinetic energy, which object B gains. Assume mass of both objects remain unchanged.

By what factor will the velocity of the object A change after the collision?

Possible Answers:

Velocity will change by a factor of $\frac{1}{4}$

Velocity will change by a factor of $\sqrt\frac{1}{2}$

Velocity will change by a factor of $\sqrt 2$

Velocity will change by a factor of $\frac{1}{2}$

Correct answer:

Velocity will change by a factor of $\sqrt\frac{1}{2}$

Explanation:

Kinetic energy E_k is related to velocity and mass by

$E_k=\frac{1}{2}mv^2$

Object A's kinetic energy has decreased by $\frac{1}{2}$ . We know that its mass hasn't changed.

Relate velocity to kinetic energy, while mass is not changing

$\sqrt E_k\propto v$

Since E_k has changed by a factor of $\frac{1}{2}$ , will change by a factor of

$\sqrt\frac{1}{2}\propto v$

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Example Question #161 : Work, Energy, And Power

Coaster

A roller coaster cart is starting at rest at a height of 40m . It goes down the track and around a loop. Assuming there is no friction between the track and the cart, what is the velocity of the cart when it has come out of the loop at the bottom of the track in miles per hour?

Possible Answers:

None of these

$v=12.3\frac{miles}{hour}$

$v=62.6\frac{miles}{hour}$

$v=1753 \frac{miles}{hour}$

Correct answer:

$v=62.6\frac{miles}{hour}$

Explanation:

Conservation of energy is a very powerful tool for solving some mechanics problems. If we used Newtonian mechanics this would be a lot more difficult. The conservation of energy for the cart denotes:

$K_{i}+U_{i}=K_{f}+U_{f}$

Where is the kinetic energy of the system and is the potential energy. and are defined by:

$K=\frac{1}{2}m v^{2}$

U=mgh

When the cart is at the top of the track it is at rest. This means that there is no initial kinetic energy. When the cart is at the bottom of the track it's height is zero, so it has no final potential energy. Therefore,

$U_{i}=K_{f} \rightarrow mgh=\frac{1}{2}mv^{2}$

Notice that the mass cancels. Solve for :

$v^{2}=2gh \rightarrow v=\sqrt{2gh}=28\frac{m}{s}$

Convert to miles per hour:

$28 \frac{m}{s}\left(\frac{6.21\times 10^{-4}miles}{m} \right )\left (\frac{60s}{1min}\right ) \left(\frac{60min}{1hour} \right )=62.6\frac{miles}{hour}$

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Example Question #202 : Ap Physics 1

You are in Paris, France, holding on to a tennis ball of mass 58.1 grams .

You throw it straight up. It leaves your hand two meters above the ground at a speed of 15 m/s .

What is the maximum height above the ground the ball obtains?

You may use $\frac{9.8 m}{s^2}$ as your acceleration.

Possible Answers:

13.5 meters

None of these

20.1 meters

10.6 meters

12.2 meters

Correct answer:

13.5 meters

Explanation:

We will use conservation of energy to help us.

We will treat our initial situation as the moment the ball left the hand, and the final situation as the ball at the maximum height.

$KE_{initial}+PE_{initial}=KE_{final}+PE_{final}$

$\frac{1}{2}mv_i}}^2+mgh_i=\frac{1}{2}mv_f}}^2+mgh_f$

Mass cancels out

$\frac{1}{2}v_i}}^2+gh_i=\frac{1}{2}v_f}}^2+gh_f$

V_f will be zero at our maximum height

$\frac{1}{2}v_i}}^2+gh_i=gh_f$

Rearranging our equatin to solve for h_f

$\frac{.5v_i^2+gh_i}{g}=h_f$

We then plug in our values

$\frac{.5\cdot15^2+9.8\cdot2}{9.8}=h_f$

13.5 meters=h_f

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Example Question #203 : Ap Physics 1

An object of mass 35 kg falls from a 50m tall building.

Determine the velocity just before hitting the ground.

Possible Answers:

$v=28.4\frac{m}{s}$

$v=95.5\frac{m}{s}$

$v=31.3\frac{m}{s}$

$v=100.3\frac{m}{s}$

None of these

Correct answer:

$v=31.3\frac{m}{s}$

Explanation:

Use conservation of energy:

$E_{initial}=E_{{final}}$

KE_1+PE_1=KE_2+PE_2

At the moment of dropping, there will be no velocity and thus no kinetic energy. Right before hitting the ground, there will be no height, and this no potential energy.

PE_1=KE_2

mgh=.5mv^2

Solve for velocity:

$v=\sqrt{2gh}$

$v=31.3\frac{m}{s}$

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Example Question #204 : Ap Physics 1

An object of mass 35 kg falls from a 50m tall building.

Determine the momentum just before hitting the ground.

Possible Answers:

$P=1003\frac{kg*m}{s}$

None of these

$P=678\frac{kg*m}{s}$

$P=1096\frac{kg*m}{s}$

$P=2103\frac{kg*m}{s}$

Correct answer:

$P=1096\frac{kg*m}{s}$

Explanation:

Use conservation of energy

$E_{initial}=E_{{final}}$

KE_1+PE_1=KE_2+PE_2

At the moment of dropping, there will be no velocity and thus no kinetic energy. Right before hitting the ground, there will be no height, and this no potential energy.

PE_1=KE_2

mgh=.5mv^2

Solve for velocity:

$v=\sqrt{2gh}$

$v=31.3\frac{m}{s}$

Use definition of momentum:

P=mv

$P=35kg*31.3\frac{m}{s}$

$P=1096\frac{kg*m}{s}$

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Example Question #205 : Ap Physics 1

An object of mass 35 kg falls from a 50m tall building.

Determine the potential energy after the object has fallen 25m .

Possible Answers:

PE=5589J

PE=4449J

PE=8575J

None of these

PE=3595J

Correct answer:

PE=8575J

Explanation:

$H_i+\Delta H=H_f$

50m-25m=25m

Use the formula for potential energy due to gravity:

PE=mgh

$PE=35kg*9.8\frac{m}{s^2}*25m$

PE=8575J

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Example Question #206 : Ap Physics 1

An object of mass 35 kg falls from a 50m tall building.

Determine the kinetic energy of the object 1.5S after being dropped.

Possible Answers:

3.8*10^3J

8.5*10^3J

None of these

2.2*10^3J

3.5*10^3J

Correct answer:

3.8*10^3J

Explanation:

First, use the velocity update kinematic equation:

$v_i+a\Delta t=v_f$

$0\frac{m}{s}+9.8\frac{m}{s^2}1.5s=v_f$

$14.7\frac{m}{s}=v_f$

Then use the definition of kinetic energy:

KE=.5mv^2

KE=.5*35*14.7^2

KE=3.8*10^3J

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Example Question #22 : Conservation Of Energy

A solid disk of mass and radius rolls down a frictionless incline of height and angle $\theta$ . The disk starts from rest at the top of the ramp, and the moment of inertia of the disk is $I=\frac{1}{2}MR^2$

If the mass rolls without slipping, what is the linear velocity of the mass at the bottom of the ramp in terms of , , , , and $\theta$ ?

Possible Answers:

$\sqrt{gh}$

$\sqrt{2gh}$

$\sqrt{\frac{4gh}{3}}$

$\sqrt{\frac{4Rgh}{3}}$

$\sqrt{Rgh}$

Correct answer:

$\sqrt{\frac{4gh}{3}}$

Explanation:

Since the ramp is frictionless and the disk rolls without slipping, we can infer two things: one conservation of energy applies here, and two we have the condition that $v=R\omega$ , where is the linear velocity, and $\omega$ is the angular velocity. For convenience, we will set the potential energy to 0 at the bottom of the ramp, since then for the final energy of the disk will not contain any potential energy terms. Now the initial energy of the disk E_i will be all potential energy, since the disk starts rolling from rest. Thus E_i=Mgh , its gravitational potential energy. At the bottom of the ramp, it will not have any potential energy, but it will have two types of kinetic energy: translational kinetic energy due to the fact that the disk itself is moving down the ramp, and rotational kinetic energy due to the fact that the disk is rotating about its center. Thus its final energy E_f is given by

$E_f=\frac{1}{2}Mv^2+\frac{1}{2}I\omega^2$

Where the first term is the translational kinetic energy contribution, and the second term is the rotational kinetic energy contribution. Now, applying conservation of energy gives us:

E_i=E_f

$Mgh=\frac{1}{2}Mv^2+\frac{1}{2}I\omega^2$

Since we are solving for the linear velocity, we use the fact that $\omega=\frac{v}{R}$ and also we replace the moment of inertia with $\frac{1}{2}MR^2$ to obtain the following:

$Mgh=\frac{1}{2}Mv^2+\frac{1}{2}(\frac{1}{2}MR^2)(\frac{v}{R})^2$

$Mgh=\frac{1}{2}Mv^2+\frac{1}{4}Mv^2$

$Mgh=\frac{3}{4}Mv^2$

Now we solve for by multiplying each side by $\frac{4}{3M}$ and then taking the square root. We obtain:

$\frac{4gh}{3}=v^2$

$v=\sqrt{\frac{4gh}{3}}$

Thus the linear velocity is given by $\sqrt{\frac{4gh}{3}}$

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Example Question #207 : Ap Physics 1

A spring-loaded pop gun fires a dart out of the muzzle at $20\frac{m}{s}$ . The spring inside is compressed a distance of 20cm and the dart has a mass of 100g .

What is the spring constant for the spring in the popgun?

Possible Answers:

$1000\frac{N}{m}$

$100\frac{N}{m}$

$1000000\frac{N}{m}$

$0.1\frac{N}{m}$

$10000\frac{N}{m}$

Correct answer:

$1000\frac{N}{m}$

Explanation:

The popgun compresses a spring and stores potential energy in the spring. The spring then releases and fires the dart, converting all of the potential energy in the spring into kinetic energy which launches the dart out of the gun at $20\frac{m}{s}$ . Therefore, we can use conservation of energy to find the value of the spring constant. The initial energy is given by

$E_i=\frac{1}{2}kx^2$

Where is the spring constant and is the compression distance. Because the dart is sitting in the gun, there is no initial kinetic energy. The final energy is given by

$E_f=\frac{1}{2}mv^2$

Where is the mass of the dart, and is the velocity of the dart. From the givens in the problem, we know that

m=100g=0.1kg , x=20cm=0.2m , and $v=20\frac{m}{s}$

Now we apply conservation of energy. We have:

E_i=E_f

$\frac{1}{2}kx^2=\frac{1}{2}mv^2$

To solve for , we multiply each side of the equation by $\frac{2}{x^2}$ to obtain:

$k=\frac{mv^2}{x^2}=\frac{(0.1kg)(20\frac{m}{s})^2}{(0.2m)^2}=1000\frac{N}{m}$

Therefore the spring constant is $k=1000\frac{N}{m}$ .

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AP Physics 1 : Newtonian Mechanics

Study concepts, example questions & explanations for AP Physics 1

All AP Physics 1 Resources

Example Questions

Example Question #11 : Conservation Of Energy

Example Question #14 : Conservation Of Energy

Example Question #161 : Work, Energy, And Power

Example Question #202 : Ap Physics 1

Example Question #203 : Ap Physics 1

Example Question #204 : Ap Physics 1

Example Question #205 : Ap Physics 1

Example Question #206 : Ap Physics 1

Example Question #22 : Conservation Of Energy

Example Question #207 : Ap Physics 1

All AP Physics 1 Resources

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